# -*- coding: utf-8 -*-
# Copyright (c) 2006-2014 LOGILAB S.A. (Paris, FRANCE) <contact@logilab.fr>
# Copyright (c) 2012-2015 Google, Inc.
# Copyright (c) 2013 moxian <aleftmail@inbox.ru>
# Copyright (c) 2014-2018 Claudiu Popa <pcmanticore@gmail.com>
# Copyright (c) 2014 frost-nzcr4 <frost.nzcr4@jagmort.com>
# Copyright (c) 2014 Brett Cannon <brett@python.org>
# Copyright (c) 2014 Michal Nowikowski <godfryd@gmail.com>
# Copyright (c) 2014 Arun Persaud <arun@nubati.net>
# Copyright (c) 2015 Mike Frysinger <vapier@gentoo.org>
# Copyright (c) 2015 Fabio Natali <me@fabionatali.com>
# Copyright (c) 2015 Harut <yes@harutune.name>
# Copyright (c) 2015 Mihai Balint <balint.mihai@gmail.com>
# Copyright (c) 2015 Pavel Roskin <proski@gnu.org>
# Copyright (c) 2015 Ionel Cristian Maries <contact@ionelmc.ro>
# Copyright (c) 2016 Petr Pulc <petrpulc@gmail.com>
# Copyright (c) 2016 Moises Lopez <moylop260@vauxoo.com>
# Copyright (c) 2016 Ashley Whetter <ashley@awhetter.co.uk>
# Copyright (c) 2017-2018 Bryce Guinta <bryce.paul.guinta@gmail.com>
# Copyright (c) 2017 hippo91 <guillaume.peillex@gmail.com>
# Copyright (c) 2017 Krzysztof Czapla <k.czapla68@gmail.com>
# Copyright (c) 2017 Ćukasz Rogalski <rogalski.91@gmail.com>
# Copyright (c) 2017 James M. Allen <james.m.allen@gmail.com>
# Copyright (c) 2017 vinnyrose <vinnyrose@users.noreply.github.com>
# Copyright (c) 2018 Bryce Guinta <bryce.guinta@protonmail.com>
# Copyright (c) 2018 Mike Frysinger <vapier@gmail.com>
# Copyright (c) 2018 ssolanki <sushobhitsolanki@gmail.com>
# Copyright (c) 2018 Anthony Sottile <asottile@umich.edu>
# Copyright (c) 2018 Fureigh <rhys.fureigh@gsa.gov>
# Copyright (c) 2018 Pierre Sassoulas <pierre.sassoulas@wisebim.fr>
# Copyright (c) 2018 Andreas Freimuth <andreas.freimuth@united-bits.de>
# Copyright (c) 2018 Jakub Wilk <jwilk@jwilk.net>
# Licensed under the GPL: https://www.gnu.org/licenses/old-licenses/gpl-2.0.html
# For details: https://github.com/PyCQA/pylint/blob/master/COPYING
"""Python code format's checker.
By default try to follow Guido's style guide :
https://www.python.org/doc/essays/styleguide/
Some parts of the process_token method is based from The Tab Nanny std module.
"""
import keyword
import sys
import tokenize
from functools import reduce # pylint: disable=redefined-builtin
from astroid import nodes
from pylint.interfaces import ITokenChecker, IAstroidChecker, IRawChecker
from pylint.checkers import BaseTokenChecker
from pylint.checkers.utils import check_messages
from pylint.utils import WarningScope, OPTION_RGX
_ASYNC_TOKEN = "async"
_CONTINUATION_BLOCK_OPENERS = [
"elif",
"except",
"for",
"if",
"while",
"def",
"class",
"with",
]
_KEYWORD_TOKENS = [
"assert",
"del",
"elif",
"except",
"for",
"if",
"in",
"not",
"raise",
"return",
"while",
"yield",
"with",
]
if sys.version_info < (3, 0):
_KEYWORD_TOKENS.append("print")
_SPACED_OPERATORS = [
"==",
"<",
">",
"!=",
"<>",
"<=",
">=",
"+=",
"-=",
"*=",
"**=",
"/=",
"//=",
"&=",
"|=",
"^=",
"%=",
">>=",
"<<=",
]
_OPENING_BRACKETS = ["(", "[", "{"]
_CLOSING_BRACKETS = [")", "]", "}"]
_TAB_LENGTH = 8
_EOL = frozenset([tokenize.NEWLINE, tokenize.NL, tokenize.COMMENT])
_JUNK_TOKENS = (tokenize.COMMENT, tokenize.NL)
# Whitespace checking policy constants
_MUST = 0
_MUST_NOT = 1
_IGNORE = 2
# Whitespace checking config constants
_DICT_SEPARATOR = "dict-separator"
_TRAILING_COMMA = "trailing-comma"
_EMPTY_LINE = "empty-line"
_NO_SPACE_CHECK_CHOICES = [_TRAILING_COMMA, _DICT_SEPARATOR, _EMPTY_LINE]
_DEFAULT_NO_SPACE_CHECK_CHOICES = [_TRAILING_COMMA, _DICT_SEPARATOR]
MSGS = {
"C0301": (
"Line too long (%s/%s)",
"line-too-long",
"Used when a line is longer than a given number of characters.",
),
"C0302": (
"Too many lines in module (%s/%s)", # was W0302
"too-many-lines",
"Used when a module has too many lines, reducing its readability.",
),
"C0303": (
"Trailing whitespace",
"trailing-whitespace",
"Used when there is whitespace between the end of a line and the newline.",
),
"C0304": (
"Final newline missing",
"missing-final-newline",
"Used when the last line in a file is missing a newline.",
),
"C0305": (
"Trailing newlines",
"trailing-newlines",
"Used when there are trailing blank lines in a file.",
),
"W0311": (
"Bad indentation. Found %s %s, expected %s",
"bad-indentation",
"Used when an unexpected number of indentation's tabulations or "
"spaces has been found.",
),
"C0330": ("Wrong %s indentation%s%s.\n%s%s", "bad-continuation", "TODO"),
"W0312": (
"Found indentation with %ss instead of %ss",
"mixed-indentation",
"Used when there are some mixed tabs and spaces in a module.",
),
"W0301": (
"Unnecessary semicolon", # was W0106
"unnecessary-semicolon",
'Used when a statement is ended by a semi-colon (";"), which '
"isn't necessary (that's python, not C ;).",
),
"C0321": (
"More than one statement on a single line",
"multiple-statements",
"Used when more than on statement are found on the same line.",
{"scope": WarningScope.NODE},
),
"C0325": (
"Unnecessary parens after %r keyword",
"superfluous-parens",
"Used when a single item in parentheses follows an if, for, or "
"other keyword.",
),
"C0326": (
"%s space %s %s %s\n%s",
"bad-whitespace",
(
"Used when a wrong number of spaces is used around an operator, "
"bracket or block opener."
),
{
"old_names": [
("C0323", "no-space-after-operator"),
("C0324", "no-space-after-comma"),
("C0322", "no-space-before-operator"),
]
},
),
"C0327": (
"Mixed line endings LF and CRLF",
"mixed-line-endings",
"Used when there are mixed (LF and CRLF) newline signs in a file.",
),
"C0328": (
"Unexpected line ending format. There is '%s' while it should be '%s'.",
"unexpected-line-ending-format",
"Used when there is different newline than expected.",
),
}
def _underline_token(token):
length = token[3][1] - token[2][1]
offset = token[2][1]
referenced_line = token[4]
# If the referenced line does not end with a newline char, fix it
if referenced_line[-1] != "\n":
referenced_line += "\n"
return referenced_line + (" " * offset) + ("^" * length)
def _column_distance(token1, token2):
if token1 == token2:
return 0
if token2[3] < token1[3]:
token1, token2 = token2, token1
if token1[3][0] != token2[2][0]:
return None
return token2[2][1] - token1[3][1]
def _last_token_on_line_is(tokens, line_end, token):
return (
line_end > 0
and tokens.token(line_end - 1) == token
or line_end > 1
and tokens.token(line_end - 2) == token
and tokens.type(line_end - 1) == tokenize.COMMENT
)
def _token_followed_by_eol(tokens, position):
return (
tokens.type(position + 1) == tokenize.NL
or tokens.type(position + 1) == tokenize.COMMENT
and tokens.type(position + 2) == tokenize.NL
)
def _get_indent_string(line):
"""Return the indention string of the given line."""
result = ""
for char in line:
if char in " \t":
result += char
else:
break
return result
def _get_indent_length(line):
"""Return the length of the indentation on the given token's line."""
result = 0
for char in line:
if char == " ":
result += 1
elif char == "\t":
result += _TAB_LENGTH
else:
break
return result
def _get_indent_hint_line(bar_positions, bad_position):
"""Return a line with |s for each of the positions in the given lists."""
if not bar_positions:
return ("", "")
# TODO tabs should not be replaced by some random (8) number of spaces
bar_positions = [_get_indent_length(indent) for indent in bar_positions]
bad_position = _get_indent_length(bad_position)
delta_message = ""
markers = [(pos, "|") for pos in bar_positions]
if len(markers) == 1:
# if we have only one marker we'll provide an extra hint on how to fix
expected_position = markers[0][0]
delta = abs(expected_position - bad_position)
direction = "add" if expected_position > bad_position else "remove"
delta_message = _CONTINUATION_HINT_MESSAGE % (
direction,
delta,
"s" if delta > 1 else "",
)
markers.append((bad_position, "^"))
markers.sort()
line = [" "] * (markers[-1][0] + 1)
for position, marker in markers:
line[position] = marker
return ("".join(line), delta_message)
class _ContinuedIndent:
__slots__ = (
"valid_outdent_strings",
"valid_continuation_strings",
"context_type",
"token",
"position",
)
def __init__(
self,
context_type,
token,
position,
valid_outdent_strings,
valid_continuation_strings,
):
self.valid_outdent_strings = valid_outdent_strings
self.valid_continuation_strings = valid_continuation_strings
self.context_type = context_type
self.position = position
self.token = token
# The contexts for hanging indents.
# A hanging indented dictionary value after :
HANGING_DICT_VALUE = "dict-value"
# Hanging indentation in an expression.
HANGING = "hanging"
# Hanging indentation in a block header.
HANGING_BLOCK = "hanging-block"
# Continued indentation inside an expression.
CONTINUED = "continued"
# Continued indentation in a block header.
CONTINUED_BLOCK = "continued-block"
SINGLE_LINE = "single"
WITH_BODY = "multi"
_CONTINUATION_MSG_PARTS = {
HANGING_DICT_VALUE: ("hanging", " in dict value"),
HANGING: ("hanging", ""),
HANGING_BLOCK: ("hanging", " before block"),
CONTINUED: ("continued", ""),
CONTINUED_BLOCK: ("continued", " before block"),
}
_CONTINUATION_HINT_MESSAGE = " (%s %d space%s)" # Ex: (remove 2 spaces)
def _Indentations(*args):
"""Valid indentation strings for a continued line."""
return {a: None for a in args}
def _BeforeBlockIndentations(single, with_body):
"""Valid alternative indentation strings for continued lines before blocks.
:param int single: Valid indentation string for statements on a single logical line.
:param int with_body: Valid indentation string for statements on several lines.
:returns: A dictionary mapping indent offsets to a string representing
whether the indent if for a line or block.
:rtype: dict
"""
return {single: SINGLE_LINE, with_body: WITH_BODY}
class TokenWrapper:
"""A wrapper for readable access to token information."""
def __init__(self, tokens):
self._tokens = tokens
def token(self, idx):
return self._tokens[idx][1]
def type(self, idx):
return self._tokens[idx][0]
def start_line(self, idx):
return self._tokens[idx][2][0]
def start_col(self, idx):
return self._tokens[idx][2][1]
def line(self, idx):
return self._tokens[idx][4]
def line_indent(self, idx):
"""Get the string of TABs and Spaces used for indentation of the line of this token"""
return _get_indent_string(self.line(idx))
def token_indent(self, idx):
"""Get an indentation string for hanging indentation, consisting of the line-indent plus
a number of spaces to fill up to the column of this token.
e.g. the token indent for foo
in "<TAB><TAB>print(foo)"
is "<TAB><TAB> "
"""
line_indent = self.line_indent(idx)
return line_indent + " " * (self.start_col(idx) - len(line_indent))
class ContinuedLineState:
"""Tracker for continued indentation inside a logical line."""
def __init__(self, tokens, config):
self._line_start = -1
self._cont_stack = []
self._is_block_opener = False
self.retained_warnings = []
self._config = config
self._tokens = TokenWrapper(tokens)
@property
def has_content(self):
return bool(self._cont_stack)
@property
def _block_indent_string(self):
return self._config.indent_string.replace("\\t", "\t")
@property
def _continuation_string(self):
return self._block_indent_string[0] * self._config.indent_after_paren
@property
def _continuation_size(self):
return self._config.indent_after_paren
def handle_line_start(self, pos):
"""Record the first non-junk token at the start of a line."""
if self._line_start > -1:
return
check_token_position = pos
if self._tokens.token(pos) == _ASYNC_TOKEN:
check_token_position += 1
self._is_block_opener = (
self._tokens.token(check_token_position) in _CONTINUATION_BLOCK_OPENERS
)
self._line_start = pos
def next_physical_line(self):
"""Prepares the tracker for a new physical line (NL)."""
self._line_start = -1
self._is_block_opener = False
def next_logical_line(self):
"""Prepares the tracker for a new logical line (NEWLINE).
A new logical line only starts with block indentation.
"""
self.next_physical_line()
self.retained_warnings = []
self._cont_stack = []
def add_block_warning(self, token_position, state, valid_indentations):
self.retained_warnings.append((token_position, state, valid_indentations))
def get_valid_indentations(self, idx):
"""Returns the valid offsets for the token at the given position."""
# The closing brace on a dict or the 'for' in a dict comprehension may
# reset two indent levels because the dict value is ended implicitly
stack_top = -1
if (
self._tokens.token(idx) in ("}", "for")
and self._cont_stack[-1].token == ":"
):
stack_top = -2
indent = self._cont_stack[stack_top]
if self._tokens.token(idx) in _CLOSING_BRACKETS:
valid_indentations = indent.valid_outdent_strings
else:
valid_indentations = indent.valid_continuation_strings
return indent, valid_indentations.copy()
def _hanging_indent_after_bracket(self, bracket, position):
"""Extracts indentation information for a hanging indent
Case of hanging indent after a bracket (including parenthesis)
:param str bracket: bracket in question
:param int position: Position of bracket in self._tokens
:returns: the state and valid positions for hanging indentation
:rtype: _ContinuedIndent
"""
indentation = self._tokens.line_indent(position)
if (
self._is_block_opener
and self._continuation_string == self._block_indent_string
):
return _ContinuedIndent(
HANGING_BLOCK,
bracket,
position,
_Indentations(indentation + self._continuation_string, indentation),
_BeforeBlockIndentations(
indentation + self._continuation_string,
indentation + self._continuation_string * 2,
),
)
if bracket == ":":
# If the dict key was on the same line as the open brace, the new
# correct indent should be relative to the key instead of the
# current indent level
paren_align = self._cont_stack[-1].valid_outdent_strings
next_align = self._cont_stack[-1].valid_continuation_strings.copy()
next_align_keys = list(next_align.keys())
next_align[next_align_keys[0] + self._continuation_string] = True
# Note that the continuation of
# d = {
# 'a': 'b'
# 'c'
# }
# is handled by the special-casing for hanging continued string indents.
return _ContinuedIndent(
HANGING_DICT_VALUE, bracket, position, paren_align, next_align
)
return _ContinuedIndent(
HANGING,
bracket,
position,
_Indentations(indentation, indentation + self._continuation_string),
_Indentations(indentation + self._continuation_string),
)
def _continuation_inside_bracket(self, bracket, position):
"""Extracts indentation information for a continued indent."""
indentation = self._tokens.line_indent(position)
token_indent = self._tokens.token_indent(position)
next_token_indent = self._tokens.token_indent(position + 1)
if (
self._is_block_opener
and next_token_indent == indentation + self._block_indent_string
):
return _ContinuedIndent(
CONTINUED_BLOCK,
bracket,
position,
_Indentations(token_indent),
_BeforeBlockIndentations(
next_token_indent, next_token_indent + self._continuation_string
),
)
return _ContinuedIndent(
CONTINUED,
bracket,
position,
_Indentations(token_indent, next_token_indent),
_Indentations(next_token_indent),
)
def pop_token(self):
self._cont_stack.pop()
def push_token(self, token, position):
"""Pushes a new token for continued indentation on the stack.
Tokens that can modify continued indentation offsets are:
* opening brackets
* 'lambda'
* : inside dictionaries
push_token relies on the caller to filter out those
interesting tokens.
:param int token: The concrete token
:param int position: The position of the token in the stream.
"""
if _token_followed_by_eol(self._tokens, position):
self._cont_stack.append(self._hanging_indent_after_bracket(token, position))
else:
self._cont_stack.append(self._continuation_inside_bracket(token, position))
class FormatChecker(BaseTokenChecker):
"""checks for :
* unauthorized constructions
* strict indentation
* line length
"""
__implements__ = (ITokenChecker, IAstroidChecker, IRawChecker)
# configuration section name
name = "format"
# messages
msgs = MSGS
# configuration options
# for available dict keys/values see the optik parser 'add_option' method
options = (
(
"max-line-length",
{
"default": 100,
"type": "int",
"metavar": "<int>",
"help": "Maximum number of characters on a single line.",
},
),
(
"ignore-long-lines",
{
"type": "regexp",
"metavar": "<regexp>",
"default": r"^\s*(# )?<?https?://\S+>?$",
"help": (
"Regexp for a line that is allowed to be longer than " "the limit."
),
},
),
(
"single-line-if-stmt",
{
"default": False,
"type": "yn",
"metavar": "<y_or_n>",
"help": (
"Allow the body of an if to be on the same "
"line as the test if there is no else."
),
},
),
(
"single-line-class-stmt",
{
"default": False,
"type": "yn",
"metavar": "<y_or_n>",
"help": (
"Allow the body of a class to be on the same "
"line as the declaration if body contains "
"single statement."
),
},
),
(
"no-space-check",
{
"default": ",".join(_DEFAULT_NO_SPACE_CHECK_CHOICES),
"metavar": ",".join(_NO_SPACE_CHECK_CHOICES),
"type": "multiple_choice",
"choices": _NO_SPACE_CHECK_CHOICES,
"help": (
"List of optional constructs for which whitespace "
"checking is disabled. "
"`" + _DICT_SEPARATOR + "` is used to allow tabulation "
"in dicts, etc.: {1 : 1,\\n222: 2}. "
"`" + _TRAILING_COMMA + "` allows a space between comma "
"and closing bracket: (a, ). "
"`" + _EMPTY_LINE + "` allows space-only lines."
),
},
),
(
"max-module-lines",
{
"default": 1000,
"type": "int",
"metavar": "<int>",
"help": "Maximum number of lines in a module.",
},
),
(
"indent-string",
{
"default": " ",
"type": "non_empty_string",
"metavar": "<string>",
"help": "String used as indentation unit. This is usually "
'" " (4 spaces) or "\\t" (1 tab).',
},
),
(
"indent-after-paren",
{
"type": "int",
"metavar": "<int>",
"default": 4,
"help": "Number of spaces of indent required inside a hanging "
"or continued line.",
},
),
(
"expected-line-ending-format",
{
"type": "choice",
"metavar": "<empty or LF or CRLF>",
"default": "",
"choices": ["", "LF", "CRLF"],
"help": (
"Expected format of line ending, "
"e.g. empty (any line ending), LF or CRLF."
),
},
),
)
def __init__(self, linter=None):
BaseTokenChecker.__init__(self, linter)
self._lines = None
self._visited_lines = None
self._bracket_stack = [None]
def _pop_token(self):
self._bracket_stack.pop()
self._current_line.pop_token()
def _push_token(self, token, idx):
self._bracket_stack.append(token)
self._current_line.push_token(token, idx)
def new_line(self, tokens, line_end, line_start):
"""a new line has been encountered, process it if necessary"""
if _last_token_on_line_is(tokens, line_end, ";"):
self.add_message("unnecessary-semicolon", line=tokens.start_line(line_end))
line_num = tokens.start_line(line_start)
line = tokens.line(line_start)
if tokens.type(line_start) not in _JUNK_TOKENS:
self._lines[line_num] = line.split("\n")[0]
self.check_lines(line, line_num)
def process_module(self, module):
self._keywords_with_parens = set()
if "print_function" in module.future_imports:
self._keywords_with_parens.add("print")
def _check_keyword_parentheses(self, tokens, start):
"""Check that there are not unnecessary parens after a keyword.
Parens are unnecessary if there is exactly one balanced outer pair on a
line, and it is followed by a colon, and contains no commas (i.e. is not a
tuple).
Args:
tokens: list of Tokens; the entire list of Tokens.
start: int; the position of the keyword in the token list.
"""
# If the next token is not a paren, we're fine.
if self._inside_brackets(":") and tokens[start][1] == "for":
self._pop_token()
if tokens[start + 1][1] != "(":
return
found_and_or = False
depth = 0
keyword_token = str(tokens[start][1])
line_num = tokens[start][2][0]
for i in range(start, len(tokens) - 1):
token = tokens[i]
# If we hit a newline, then assume any parens were for continuation.
if token[0] == tokenize.NL:
return
if token[1] == "(":
depth += 1
elif token[1] == ")":
depth -= 1
if depth:
continue
# ')' can't happen after if (foo), since it would be a syntax error.
if tokens[i + 1][1] in (":", ")", "]", "}", "in") or tokens[i + 1][
0
] in (tokenize.NEWLINE, tokenize.ENDMARKER, tokenize.COMMENT):
# The empty tuple () is always accepted.
if i == start + 2:
return
if keyword_token == "not":
if not found_and_or:
self.add_message(
"superfluous-parens", line=line_num, args=keyword_token
)
elif keyword_token in ("return", "yield"):
self.add_message(
"superfluous-parens", line=line_num, args=keyword_token
)
elif keyword_token not in self._keywords_with_parens:
if not found_and_or:
self.add_message(
"superfluous-parens", line=line_num, args=keyword_token
)
return
elif depth == 1:
# This is a tuple, which is always acceptable.
if token[1] == ",":
return
# 'and' and 'or' are the only boolean operators with lower precedence
# than 'not', so parens are only required when they are found.
if token[1] in ("and", "or"):
found_and_or = True
# A yield inside an expression must always be in parentheses,
# quit early without error.
elif token[1] == "yield":
return
# A generator expression always has a 'for' token in it, and
# the 'for' token is only legal inside parens when it is in a
# generator expression. The parens are necessary here, so bail
# without an error.
elif token[1] == "for":
return
def _opening_bracket(self, tokens, i):
self._push_token(tokens[i][1], i)
# Special case: ignore slices
if tokens[i][1] == "[" and tokens[i + 1][1] == ":":
return
if i > 0 and (
tokens[i - 1][0] == tokenize.NAME
and not (keyword.iskeyword(tokens[i - 1][1]))
or tokens[i - 1][1] in _CLOSING_BRACKETS
):
self._check_space(tokens, i, (_MUST_NOT, _MUST_NOT))
else:
self._check_space(tokens, i, (_IGNORE, _MUST_NOT))
def _closing_bracket(self, tokens, i):
if self._inside_brackets(":"):
self._pop_token()
self._pop_token()
# Special case: ignore slices
if tokens[i - 1][1] == ":" and tokens[i][1] == "]":
return
policy_before = _MUST_NOT
if tokens[i][1] in _CLOSING_BRACKETS and tokens[i - 1][1] == ",":
if _TRAILING_COMMA in self.config.no_space_check:
policy_before = _IGNORE
self._check_space(tokens, i, (policy_before, _IGNORE))
def _has_valid_type_annotation(self, tokens, i):
"""Extended check of PEP-484 type hint presence"""
if not self._inside_brackets("("):
return False
# token_info
# type string start end line
# 0 1 2 3 4
bracket_level = 0
for token in tokens[i - 1 :: -1]:
if token[1] == ":":
return True
if token[1] == "(":
return False
if token[1] == "]":
bracket_level += 1
elif token[1] == "[":
bracket_level -= 1
elif token[1] == ",":
if not bracket_level:
return False
elif token[1] in (".", "..."):
continue
elif token[0] not in (tokenize.NAME, tokenize.STRING, tokenize.NL):
return False
return False
def _check_equals_spacing(self, tokens, i):
"""Check the spacing of a single equals sign."""
if self._has_valid_type_annotation(tokens, i):
self._check_space(tokens, i, (_MUST, _MUST))
elif self._inside_brackets("(") or self._inside_brackets("lambda"):
self._check_space(tokens, i, (_MUST_NOT, _MUST_NOT))
else:
self._check_space(tokens, i, (_MUST, _MUST))
def _open_lambda(self, tokens, i): # pylint:disable=unused-argument
self._push_token("lambda", i)
def _handle_colon(self, tokens, i):
# Special case: ignore slices
if self._inside_brackets("["):
return
if self._inside_brackets("{") and _DICT_SEPARATOR in self.config.no_space_check:
policy = (_IGNORE, _IGNORE)
else:
policy = (_MUST_NOT, _MUST)
self._check_space(tokens, i, policy)
if self._inside_brackets("lambda"):
self._pop_token()
elif self._inside_brackets("{"):
self._push_token(":", i)
def _handle_comma(self, tokens, i):
# Only require a following whitespace if this is
# not a hanging comma before a closing bracket.
if tokens[i + 1][1] in _CLOSING_BRACKETS:
self._check_space(tokens, i, (_MUST_NOT, _IGNORE))
else:
self._check_space(tokens, i, (_MUST_NOT, _MUST))
if self._inside_brackets(":"):
self._pop_token()
def _check_surrounded_by_space(self, tokens, i):
"""Check that a binary operator is surrounded by exactly one space."""
self._check_space(tokens, i, (_MUST, _MUST))
def _check_space(self, tokens, i, policies):
def _policy_string(policy):
if policy == _MUST:
return "Exactly one", "required"
return "No", "allowed"
def _name_construct(token):
if token[1] == ",":
return "comma"
if token[1] == ":":
return ":"
if token[1] in "()[]{}":
return "bracket"
if token[1] in ("<", ">", "<=", ">=", "!=", "=="):
return "comparison"
if self._inside_brackets("("):
return "keyword argument assignment"
return "assignment"
good_space = [True, True]
token = tokens[i]
pairs = [(tokens[i - 1], token), (token, tokens[i + 1])]
for other_idx, (policy, token_pair) in enumerate(zip(policies, pairs)):
if token_pair[other_idx][0] in _EOL or policy == _IGNORE:
continue
distance = _column_distance(*token_pair)
if distance is None:
continue
good_space[other_idx] = (policy == _MUST and distance == 1) or (
policy == _MUST_NOT and distance == 0
)
warnings = []
if not any(good_space) and policies[0] == policies[1]:
warnings.append((policies[0], "around"))
else:
for ok, policy, position in zip(good_space, policies, ("before", "after")):
if not ok:
warnings.append((policy, position))
for policy, position in warnings:
construct = _name_construct(token)
count, state = _policy_string(policy)
self.add_message(
"bad-whitespace",
line=token[2][0],
args=(count, state, position, construct, _underline_token(token)),
col_offset=token[2][1],
)
def _inside_brackets(self, left):
return self._bracket_stack[-1] == left
def _prepare_token_dispatcher(self):
raw = [
(_KEYWORD_TOKENS, self._check_keyword_parentheses),
(_OPENING_BRACKETS, self._opening_bracket),
(_CLOSING_BRACKETS, self._closing_bracket),
(["="], self._check_equals_spacing),
(_SPACED_OPERATORS, self._check_surrounded_by_space),
([","], self._handle_comma),
([":"], self._handle_colon),
(["lambda"], self._open_lambda),
]
dispatch = {}
for tokens, handler in raw:
for token in tokens:
dispatch[token] = handler
return dispatch
def process_tokens(self, tokens):
"""process tokens and search for :
_ non strict indentation (i.e. not always using the <indent> parameter as
indent unit)
_ too long lines (i.e. longer than <max_chars>)
_ optionally bad construct (if given, bad_construct must be a compiled
regular expression).
"""
self._bracket_stack = [None]
indents = [0]
check_equal = False
line_num = 0
self._lines = {}
self._visited_lines = {}
token_handlers = self._prepare_token_dispatcher()
self._last_line_ending = None
last_blank_line_num = 0
self._current_line = ContinuedLineState(tokens, self.config)
for idx, (tok_type, token, start, _, line) in enumerate(tokens):
if start[0] != line_num:
line_num = start[0]
# A tokenizer oddity: if an indented line contains a multi-line
# docstring, the line member of the INDENT token does not contain
# the full line; therefore we check the next token on the line.
if tok_type == tokenize.INDENT:
self.new_line(TokenWrapper(tokens), idx - 1, idx + 1)
else:
self.new_line(TokenWrapper(tokens), idx - 1, idx)
if tok_type == tokenize.NEWLINE:
# a program statement, or ENDMARKER, will eventually follow,
# after some (possibly empty) run of tokens of the form
# (NL | COMMENT)* (INDENT | DEDENT+)?
# If an INDENT appears, setting check_equal is wrong, and will
# be undone when we see the INDENT.
check_equal = True
self._process_retained_warnings(TokenWrapper(tokens), idx)
self._current_line.next_logical_line()
self._check_line_ending(token, line_num)
elif tok_type == tokenize.INDENT:
check_equal = False
self.check_indent_level(token, indents[-1] + 1, line_num)
indents.append(indents[-1] + 1)
elif tok_type == tokenize.DEDENT:
# there's nothing we need to check here! what's important is
# that when the run of DEDENTs ends, the indentation of the
# program statement (or ENDMARKER) that triggered the run is
# equal to what's left at the top of the indents stack
check_equal = True
if len(indents) > 1:
del indents[-1]
elif tok_type == tokenize.NL:
if not line.strip("\r\n"):
last_blank_line_num = line_num
self._check_continued_indentation(TokenWrapper(tokens), idx + 1)
self._current_line.next_physical_line()
elif tok_type not in (tokenize.COMMENT, tokenize.ENCODING):
self._current_line.handle_line_start(idx)
# This is the first concrete token following a NEWLINE, so it
# must be the first token of the next program statement, or an
# ENDMARKER; the "line" argument exposes the leading whitespace
# for this statement; in the case of ENDMARKER, line is an empty
# string, so will properly match the empty string with which the
# "indents" stack was seeded
if check_equal:
check_equal = False
self.check_indent_level(line, indents[-1], line_num)
if tok_type == tokenize.NUMBER and token.endswith("l"):
self.add_message("lowercase-l-suffix", line=line_num)
try:
handler = token_handlers[token]
except KeyError:
pass
else:
handler(tokens, idx)
line_num -= 1 # to be ok with "wc -l"
if line_num > self.config.max_module_lines:
# Get the line where the too-many-lines (or its message id)
# was disabled or default to 1.
message_definition = self.linter.msgs_store.get_message_definitions(
"too-many-lines"
)[0]
names = (message_definition.msgid, "too-many-lines")
line = next(filter(None, map(self.linter._pragma_lineno.get, names)), 1)
self.add_message(
"too-many-lines",
args=(line_num, self.config.max_module_lines),
line=line,
)
# See if there are any trailing lines. Do not complain about empty
# files like __init__.py markers.
if line_num == last_blank_line_num and line_num > 0:
self.add_message("trailing-newlines", line=line_num)
def _check_line_ending(self, line_ending, line_num):
# check if line endings are mixed
if self._last_line_ending is not None:
# line_ending == "" indicates a synthetic newline added at
# the end of a file that does not, in fact, end with a
# newline.
if line_ending and line_ending != self._last_line_ending:
self.add_message("mixed-line-endings", line=line_num)
self._last_line_ending = line_ending
# check if line ending is as expected
expected = self.config.expected_line_ending_format
if expected:
# reduce multiple \n\n\n\n to one \n
line_ending = reduce(lambda x, y: x + y if x != y else x, line_ending, "")
line_ending = "LF" if line_ending == "\n" else "CRLF"
if line_ending != expected:
self.add_message(
"unexpected-line-ending-format",
args=(line_ending, expected),
line=line_num,
)
def _process_retained_warnings(self, tokens, current_pos):
single_line_block_stmt = not _last_token_on_line_is(tokens, current_pos, ":")
for indent_pos, state, indentations in self._current_line.retained_warnings:
block_type = indentations[tokens.token_indent(indent_pos)]
hints = {k: v for k, v in indentations.items() if v != block_type}
if single_line_block_stmt and block_type == WITH_BODY:
self._add_continuation_message(state, hints, tokens, indent_pos)
elif not single_line_block_stmt and block_type == SINGLE_LINE:
self._add_continuation_message(state, hints, tokens, indent_pos)
def _check_continued_indentation(self, tokens, next_idx):
def same_token_around_nl(token_type):
return (
tokens.type(next_idx) == token_type
and tokens.type(next_idx - 2) == token_type
)
# Do not issue any warnings if the next line is empty.
if not self._current_line.has_content or tokens.type(next_idx) == tokenize.NL:
return
state, valid_indentations = self._current_line.get_valid_indentations(next_idx)
# Special handling for hanging comments and strings. If the last line ended
# with a comment (string) and the new line contains only a comment, the line
# may also be indented to the start of the previous token.
if same_token_around_nl(tokenize.COMMENT) or same_token_around_nl(
tokenize.STRING
):
valid_indentations[tokens.token_indent(next_idx - 2)] = True
# We can only decide if the indentation of a continued line before opening
# a new block is valid once we know of the body of the block is on the
# same line as the block opener. Since the token processing is single-pass,
# emitting those warnings is delayed until the block opener is processed.
if (
state.context_type in (HANGING_BLOCK, CONTINUED_BLOCK)
and tokens.token_indent(next_idx) in valid_indentations
):
self._current_line.add_block_warning(next_idx, state, valid_indentations)
elif tokens.token_indent(next_idx) not in valid_indentations:
length_indentation = len(tokens.token_indent(next_idx))
if not any(
length_indentation == 2 * len(indentation)
for indentation in valid_indentations
):
self._add_continuation_message(
state, valid_indentations, tokens, next_idx
)
def _add_continuation_message(self, state, indentations, tokens, position):
readable_type, readable_position = _CONTINUATION_MSG_PARTS[state.context_type]
hint_line, delta_message = _get_indent_hint_line(
indentations, tokens.token_indent(position)
)
self.add_message(
"bad-continuation",
line=tokens.start_line(position),
args=(
readable_type,
readable_position,
delta_message,
tokens.line(position),
hint_line,
),
)
@check_messages("multiple-statements")
def visit_default(self, node):
"""check the node line number and check it if not yet done"""
if not node.is_statement:
return
if not node.root().pure_python:
return # XXX block visit of child nodes
prev_sibl = node.previous_sibling()
if prev_sibl is not None:
prev_line = prev_sibl.fromlineno
else:
# The line on which a finally: occurs in a try/finally
# is not directly represented in the AST. We infer it
# by taking the last line of the body and adding 1, which
# should be the line of finally:
if (
isinstance(node.parent, nodes.TryFinally)
and node in node.parent.finalbody
):
prev_line = node.parent.body[0].tolineno + 1
else:
prev_line = node.parent.statement().fromlineno
line = node.fromlineno
assert line, node
if prev_line == line and self._visited_lines.get(line) != 2:
self._check_multi_statement_line(node, line)
return
if line in self._visited_lines:
return
try:
tolineno = node.blockstart_tolineno
except AttributeError:
tolineno = node.tolineno
assert tolineno, node
lines = []
for line in range(line, tolineno + 1):
self._visited_lines[line] = 1
try:
lines.append(self._lines[line].rstrip())
except KeyError:
lines.append("")
def _check_multi_statement_line(self, node, line):
"""Check for lines containing multiple statements."""
# Do not warn about multiple nested context managers
# in with statements.
if isinstance(node, nodes.With):
return
# For try... except... finally..., the two nodes
# appear to be on the same line due to how the AST is built.
if isinstance(node, nodes.TryExcept) and isinstance(
node.parent, nodes.TryFinally
):
return
if (
isinstance(node.parent, nodes.If)
and not node.parent.orelse
and self.config.single_line_if_stmt
):
return
if (
isinstance(node.parent, nodes.ClassDef)
and len(node.parent.body) == 1
and self.config.single_line_class_stmt
):
return
self.add_message("multiple-statements", node=node)
self._visited_lines[line] = 2
def check_lines(self, lines, i):
"""check lines have less than a maximum number of characters
"""
max_chars = self.config.max_line_length
ignore_long_line = self.config.ignore_long_lines
def check_line(line, i):
if not line.endswith("\n"):
self.add_message("missing-final-newline", line=i)
else:
# exclude \f (formfeed) from the rstrip
stripped_line = line.rstrip("\t\n\r\v ")
if not stripped_line and _EMPTY_LINE in self.config.no_space_check:
# allow empty lines
pass
elif line[len(stripped_line) :] not in ("\n", "\r\n"):
self.add_message(
"trailing-whitespace", line=i, col_offset=len(stripped_line)
)
# Don't count excess whitespace in the line length.
line = stripped_line
mobj = OPTION_RGX.search(line)
if mobj and "=" in line:
front_of_equal, _, back_of_equal = mobj.group(1).partition("=")
if front_of_equal.strip() == "disable":
if "line-too-long" in {
_msg_id.strip() for _msg_id in back_of_equal.split(",")
}:
return None
line = line.rsplit("#", 1)[0].rstrip()
if len(line) > max_chars and not ignore_long_line.search(line):
self.add_message("line-too-long", line=i, args=(len(line), max_chars))
return i + 1
unsplit_ends = {
"\v",
"\x0b",
"\f",
"\x0c",
"\x1c",
"\x1d",
"\x1e",
"\x85",
"\u2028",
"\u2029",
}
unsplit = []
for line in lines.splitlines(True):
if line[-1] in unsplit_ends:
unsplit.append(line)
continue
if unsplit:
unsplit.append(line)
line = "".join(unsplit)
unsplit = []
i = check_line(line, i)
if i is None:
break
if unsplit:
check_line("".join(unsplit), i)
def check_indent_level(self, string, expected, line_num):
"""return the indent level of the string
"""
indent = self.config.indent_string
if indent == "\\t": # \t is not interpreted in the configuration file
indent = "\t"
level = 0
unit_size = len(indent)
while string[:unit_size] == indent:
string = string[unit_size:]
level += 1
suppl = ""
while string and string[0] in " \t":
if string[0] != indent[0]:
if string[0] == "\t":
args = ("tab", "space")
else:
args = ("space", "tab")
self.add_message("mixed-indentation", args=args, line=line_num)
return level
suppl += string[0]
string = string[1:]
if level != expected or suppl:
i_type = "spaces"
if indent[0] == "\t":
i_type = "tabs"
self.add_message(
"bad-indentation",
line=line_num,
args=(level * unit_size + len(suppl), i_type, expected * unit_size),
)
return None
def register(linter):
"""required method to auto register this checker """
linter.register_checker(FormatChecker(linter))
def funkier():
for val in range(3):
pass
print(val)
